Doc.: IEEE 802.11-13/0878r0 Submission July 2013 Jeongki Kim, LG ElectronicsSlide 1 Efficiency enhancement for dense WLAN environment Date: 2013-07-15.

Slides:

Advertisements

Similar presentations

Submission doc.: IEEE /0802r0 July 2013 Y.Inoue (NTT), A.Yamada (NTT docomo)Slide 1 Proposed re-categorization of the usage models Date: xx.

Advertisements

Doc.: IEEE /1377r0 Submission November 2013 Jeongki Kim, LG ElectronicsSlide 1 DL efficiency enhancement in high dense network Date:

Doc.: IEEE /1176r0 Submission Sep 2013 Reza Hedayat (Cisco Systems) Slide 1 Some Simulation Scenarios for HEW NameAffiliationPhone Reza HedayatCisco.

Doc.: IEEE /1058r0 Submission September 2013 Suhwook Kim, LG ElectronicsSlide 1 Efficient Wider Bandwidth Operation Date: Authors:

Doc.: IEEE /0551r1 SubmissionSuhwook Kim, LG ElectronicsSlide 1 OBSS Preamble Detection Evaluation Date: Authors: NameAffiliationsAddressPhone .

Doc.: IEEE /1000r0 Submission July 2011 Jihyun Lee, LG ElectronicsSlide 1 TGai FILS Proposal Date: Authors: NameAffiliationsAddressPhone .

Discussion on OFDMA in IEEE ax

Submission doc.: IEEE /1208r1 September 2014 Jinsoo Ahn, Yonsei UniversitySlide 1 MAC considerations on ax OFDMA Date: Authors:

Doc.: IEEE /0045r0 Submission Jan 2014 E-Education Analysis HEW SG Date: Authors: Graham Smith, DSP GroupSlide 1.

Doc.: IEEE /1042r3 Submission NameAffiliationsAddressPhone Giwon ParkLG Electronics LG R&D Complex 533, Hogye- 1dong, Dongan-Gu, Anyang,

Submission doc.: IEEE 11-14/0026r1 January 2014 Yong Liu, et al.Slide 1 Thoughts on HEW PAR Date: Authors:

Doc.: IEEE /0787r0 Submission July 2013 Wu TianyuSlide 1 Follow-up Discussions on HEW Functional Requirements Date: Authors:

Doc.: IEEE /1153r0 Submission September 2013 Laurent Cariou (Orange)Slide 1 Simulation scenario proposal Date: Authors:

Doc.: IEEE 11-13/0000r0 Submission July 2013 Dapeng Liu (CMCC)Slide 1 Interference Control Use Case for HEW Date: Authors: NameAffiliationsAddressPhone .

Doc.: IEEE 11-14/0113r1 Submission Mar Minho Cheong (NEWRACOM)Slide 1 Modeling of additional channel loss in dense WLAN environments Date:

Submission doc.: IEEE /1179r0 September 2014 Gwangzeen Ko, ETRISlide 1 Considerations for Partial Band Interference between WLAN Systems Date:

Doc.: IEEE /0316r7 SubmissionHyeyoung Choi, LG ElectronicsSlide 1 Power Save Calibration Date: Authors: NameAffiliationsAddressPhone .

Doc.: IEEE /0797r0 Submission May 2011 Jihyun Lee, LG ElectronicsSlide 1 Use Case: Mobile hotspot Date: Authors: NameAffiliationsAddressPhone .

Submission Sep doc.: IEEE XXXXr1 Zhigang Wen,et. al (BUPT)Slide 1 Discussion on Massive MIMO for HEW Date: Authors:

Submission doc.: IEEE /0801r1 Akira Kishida, NTT Issues of Low-Rate Transmission Date: Authors:

July 2013 Jinsoo Choi, LG ElectronicsSlide 1 Functional Requirements in HEW Date: Authors:

Doc.:IEEE /0536r0 Submission May 11th, 2009 Slide 1 OBSS issue in ac Authors: Date:

Doc.: IEEE /0065r0 Submission January 2014 William Carney, SONYSlide 1 Comments on Draft HEW PAR Date: Authors:

Doc.: IEEE /0723r1 SubmissionSlide 1 HEW SG Evaluation Methodology Overview Date: Authors: Minyoung Park (Intel Corp.) July 2013.

Doc.: IEEE /0786r0 Submission July 2013 Wu TianyuSlide 1 Discussions on System Level Simulation Methodology Date: Authors:

Sep 2013 Jinsoo Choi, LG ElectronicsSlide 1 Discussion on HEW Functional Requirements Date: Authors:

Submission doc.: IEEE 11-13/1398r0 Nov 2013 Akira Yamada, NTT DOCOMO, Inc.Slide 1 Requirements for HEW Date: Authors:

Doc.: IEEE /0542r0 SubmissionSimone Merlin, QualcommSlide 1 HEW Scenarios and Goals Date: Authors: May 2013.

Submission doc.: IEEE 11-13/1079r0 September 2013 Joseph Levy, InterDigital Communications Inc.Slide 1 Outdoor Stadium Simulation Details Discussion Date:

Discussion on ax functional requirements

Submission doc.: IEEE 11-13/1073r0 September 2013 Katsuo Yunoki, KDDI R&D LaboratoriesSlide 1 Access Control Enhancement Date: Authors:

Doc.: IEEE /1392r3 SubmissionSuhwook Kim, LG ElectronicsSlide 1 Simulation results for Box 5 calibration Date: Authors: NameAffiliationsAddressPhone .

Doc.: IEEE /0805-r1 SubmissionSlide 1 On Definition of Dense Networks and Performance Metric Date: Authors: Jianhan Liu, etc. Mediatek.

Doc.: IEEE /1061r0 Submission September 2013 Jeongki Kim, LG ElectronicsSlide 1 Multicast Transmission for HEW Date: Authors: NameAffiliationsAddressPhone .

Doc.: IEEE /0364r3 SubmissionJeongki Kim, LG ElectronicsSlide 1 AID Reassignment Protocol Date: Authors: May 2012.

Doc.: IEEE /1083r0 SubmissionSlide 1 HEW SG Simulation Scenarios Date: Authors: David Yang (Huawei) Sep 2013.

Investigation on 1024 QAM feasibility in 11ax

Doc.: IEEE /1000r1 Submission Aug 2013 Simone Merlin (Qualcomm)Slide 1 Simulation Scenarios Date: Authors:

Doc.: IEEE /0805-r0 SubmissionSlide 1 On Definition of Dense Networks and Performance Metric Date: Authors: Jianhan Liu, etc. Mediatek.

Doc.: IEEE / Submission March 2013 Juho Pirskanen, Renesas Mobile CorporationSlide 1 Discussion On Basic Technical Aspects for HEW Date:

Doc.: IEEE /0042r1 Submission January 2013 Yongho Seok, LG ElectronicsSlide 1 Fast Moving Scan Channel Date: Authors: NameAffiliationsAddressPhone .

Doc.: IEEE /1392r5 SubmissionSuhwook Kim, LG ElectronicsSlide 1 Simulation results for Box 5 calibration Date: Authors: NameAffiliationsAddressPhone .

Multi-Beamforming in Polarized Channels for 11ay

Doc.: IEEE /1054 Sept 2013 SubmissionYonggang Fang, ZTETX HEW Evaluation Metrics Suggestions Date: Slide 1 Authors: NameAffiliationAddress .

Doc.: IEEE /0161r1 Submission doc.: IEEE /1032r0 Slide 1 Simulation Scenario for OBSS in Home Network Date: Authors: September.

Submission doc.: IEEE /1064r0 September 2015 Jarkko Kneckt, NokiaSlide 1 Long Range, Low Power Design Criteria Date: Authors:

Overall MAC Procedure for WUR

Simulation Scenarios Date: Authors: Aug 2013 May 2013

19, Yangjae-daero 11gil, Seocho-gu, Seoul , Korea

HEW Evaluation Metrics Suggestions

Proposal on Simulation Scenario Document for 11ax PAR verification

Proposal on Simulation Scenario Document for 11ax PAR verification

Simulation results for

OFDMA performance in 11ax

Smart scanning for WUR discovery

WUR Frame Format for Smart Scanning

Enhancement on resource utilization in OBSS environment

Enhancement on resource utilization in OBSS environment

WUR Discovery Frame Format

IEEE ah Use Case – Outdoor Wi-Fi for cellular traffic offloading

AP re-discovery by WUR STA

Simulation Scenario for Unplanned Wi-Fi Network

Efficient Frequency Spectrum Utilization

Possible Enhancement for Broadcast Services over WLAN

WUR Frame Format for Smart Scanning

19, Yangjae-daero 11gil, Seocho-gu, Seoul , Korea

Simulation Scenarios Date: Authors: Aug 2013 May 2013

LC MAC submission – follow up

LC MAC submission – follow up

19, Yangjae-daero 11gil, Seocho-gu, Seoul , Korea

Presentation transcript:

doc.: IEEE /0878r0 Submission July 2013 Jeongki Kim, LG ElectronicsSlide 1 Efficiency enhancement for dense WLAN environment Date: Authors: NameAffiliationsAddressPhone Jeongki KimLG Electronics 19, Yangjea-daero 11gil, Seocho-gu, Seoul , Korea Giwon ParkLG Suhwook KimLG Yongho SeokLG HanGyu ChoLG

doc.: IEEE /0878r0 Submission Abstract This contribution provides the deployment scenarios and consideration points of small BSS design for providing high MAC efficiency in dense WLAN deployment scenarios. July 2013 Slide 2Jeongki Kim, LG Electronics

doc.: IEEE /0878r0 Submission Introduction Most of HEW use cases come from dense STAs [1] –Stadium, airport or train station, exhibition hall, e-education, public transportation, lecture hall, etc. Dense STAs degrade WLAN performance because the number of STAs is beyond what AP can usually support In dense STAs environment, operator deploys many APs to cover dense STAs in the limited area, but it results in overlapped BSSs –OBSSs degrade WLAN MAC efficiency [2][3] July 2013 Jeongki Kim, LG ElectronicsSlide 3

doc.: IEEE /0878r0 Submission Planned dense WLAN environment In many usage scenarios, WLAN APs are deployed by an operator with a planned manner –E.g., E-education, Stadium, Exhibition hall, Wireless office building, Public transportation, etc In planned dense environment, small BSS (e.g., radius = 5~ 30m) can provide the high efficiency because it can reduce many OBSSs –Planned APs should be deployed with small OBSSs for high efficiency Unplanned WLAN APs (e.g., P2P, soft APs) can still exist July 2013 Slide 4Jeongki Kim, LG Electronics

doc.: IEEE /0878r0 Submission Small BSS: Deployment Scenario I Homogeneous Deployment Consist of only small BSSs General scenario Small BSSs can be overlapped each other Use cases: E-education, Wireless office, Stadium, etc. Requires many APs in order to cover the whole network. Slide 5Jeongki Kim, LG Electronics July 2013

doc.: IEEE /0878r0 Submission Small BSS: Deployment Scenario II Heterogeneous Deployment –Small BSSs are with a normal BSS coverage –Normal BSS mainly serve users which are out of small BSS range –Use cases: Stadium, E-education, Urban streets, etc. Slide 6Jeongki Kim, LG Electronics July 2013

doc.: IEEE /0878r0 Submission Consideration points for small BSS design Interference/OBSS control –Among overlapped small BSSs –Between small BSS and normal BSS Seamless connection supports –Inter small BSS –Small BSS to/from normal BSS Load balancing –STA can be transited from the high loaded BSS to low loaded BSS Slide 7Jeongki Kim, LG Electronics July 2013

doc.: IEEE /0878r0 Submission Summary We should continue to discuss about efficient Small BSS design focusing on the followings: –Interference/OBSS control –Seamless connection supports –Load balancing Need to consider existing methods (e.g., 11aa, 11ae, 11ah, 11ai, …) July 2013 Slide 8Jeongki Kim, LG Electronics

doc.: IEEE /0878r0 Submission References [1] IEEE /0657r1 Usage models and requirements for IEEE High Efficiency WLAN study group (HEW SG) [2] IEEE /0576r3 Performance Evaluation for 11ac [3] IEEE /0505r0 MAC Efficiency Analysis for HEW SG July 2013 Slide 9Jeongki Kim, LG Electronics